Infections during pregnancy may help autism develop—and scientists are finally figuring out why

The immune system is a complex beast. It often does a fantastic job of fighting dangerous pathogens, preventing microbes from infecting and harming you. But it’s not infallible. Cancer cells can squeeze past undetected, for example. And sometimes the immune system can go into overdrive: In an attempt to fight whatever infection you have, it over produces certain proteins and chemicals that can harm healthy cells.

Smoking cigarettes, drinking alcohol and using illegal drugs can put a pregnancy at risk.

(Photo via Getty)

Medical history

A prior C-section, low birth weight baby or preterm birth — birth before 37 weeks of pregnancy — might increase the risk in subsequent pregnancies. Other risk factors include a family history of genetic conditions, a history of pregnancy loss or the death of a baby shortly after birth.

(Photo via Getty)

Underlying conditions

Chronic conditions — such as diabetes, high blood pressure and epilepsy — increase pregnancy risks. A blood condition, such as anemia, an infection or an underlying mental health condition also can increase pregnancy risks.

(Photo via Getty)

Pregnancy complications

Various complications that develop during pregnancy pose risks, such as problems with the uterus, cervix or placenta. Other concerns might include too much amniotic fluid (polyhydramnios) or low amniotic fluid (oligohydramnios), restricted fetal growth, or Rh (rhesus) sensitization — a potentially serious condition that can occur when your blood group is Rh negative and your baby's blood group is Rh positive.

(Photo via Getty Images)

Multiple pregnancy

Pregnancy risks are higher for women carrying twins or higher order multiples.

(Photo via Getty)

Up Next

See Gallery

Discover More Like This

HIDE CAPTION

SHOW CAPTION

of

SEE ALL

BACK TO SLIDE

But for a long time, scientists couldn’t figure out a mechanism. What was happening on a cellular level that would allow immune cells to increase the risk of these conditions? In a set of twomice studies published this week in the journal Nature, a team of scientists have laid out one potential process: A specific kind of bacteria in the mouse gut helps trigger the immune system to produce certain inflammatory cells, which cause an area of the somatosensory cortex in the mother’s offspring to exhibit signs meant to mimic autism and similar disorders in humans.

This is the first time researchers have identified a potential mechanism for this phenomenon. However, the researchers will need to perform many additional studies to truly understand the pathway they've uncovered. And given that the research was conducted on mice—which have relatively similar physiology to humans, but of course aren't quite the same—even more studies will be required to show that we're prone to the same process.

The team of researchers had previously shown that the presence of an immune protein called interleukin 17a in mice could trigger autism-like disorders in their offspring. But the mechanism through which this protein did its work wasn’t clear. In this study, the scientists found that the presence a group of microbes called segmented filamentous bacteria in the gut led the immune system to create more interleukin 17a proteins. Mice that lacked interleukin 17a didn’t experience MIA, and mice that were given antibiotics didn’t show signs of it either.

Using optogenetics (which genetically alters proteins so that they respond to light signals), the researchers were able to bring out these kinds of behaviors in mice that had not experienced MIA by activating a particular region of the brain. In mice that had undergone MIA, inhibiting neural activity in this area stopped the behaviors.

So what does this mean for pregnant women? First of all, MIA isn’t the run-of-the-mill immune response that someone could get from an everyday cold. The experiment mimics a severe viral infection, says lead author Jun Huh, a microbiologist at the University of Massachusetts School of Medicine. He says that epidemiological studies show that maternal hospitalization during late first trimester or second trimester is associated with the diagnosis of these disorders. But it's too early to know how significant an effect MIA could have on fetal developmen compared to other known factors, like genetic predisposition.

“It is difficult to answer until we have a large-scale human study,” says Huh. “All we could say is that environmental factors—including inflammation—during pregnancy probably have significant effects on the infant developing neurodevelopmental disorders.”

But Huh has a gut feeling that environmental factors could play a significant role. He thinks perhaps they create a synergistic effect with genetic predispositions, such that neurodevelopmental disorders can only develop when several of them are present.

But while there's a lot left to learn, the new studies stand out. As Craig M. Powell, a neuroscientist at the University of Texas Southwestern Medical Center in Dallas who wasn't involved in the research, pointed out in an accompanying editorial: These papers demonstrate a clear connection between the gut bacteria, the immune system, and brain development. The team’s next plan is to figure out how to counter this bacteria and prevent it from triggering unnecessarily high production of interleukin 17a. This could be accomplished, Huh says, by finding microbes that outcompete segmented filamentous bacteria. “Perhaps then those bacteria could be used as a probiotic to treat women before or during pregnancy.”